Carburetor heat

Carburetor heat

Carburetor, carburettor, carburator, carburettet heat (usually abbreviated to 'carb heat') is a system used in automobile and piston-powered light aircraft engines to prevent or clear carburetor icing. It consists of a moveable flap which draws hot air into the engine intake. The air is drawn from the heat stove, a metal plate around the (very hot) exhaust manifold.

Operation

Icing occurs when the atmospheric air contains significant levels of water vapor; as the air is drawn into the engine through a carburetor it is cooled sufficiently to cause that vapor to condense out and freeze on the butterfly valve. This cooling has two causes: the air pressure drops due to the engine suction and due to the increase in speed through the butterfly valve (in part-throttle operation) which drops the air temperature; and the liquid gasoline being introduced into the airstream must evaporate, and the heat of evaporation is extracted from the airstream, cooling it. The temperature in the carburetor can drop below the freezing point of water, and if the air is humid, ice can form inside the carburetor. As the ice builds up, less air can pass through the carburetor, causing a drop in power and, in severe cases, the engine will eventually stall.

Temperature drops of 20 °C (36°F) or more are often encountered within the carburetor, so ice can build up even when the outside air temperature is well above freezing. Perhaps paradoxically, cold winter weather is less prone to icing, since cold air contains much less moisture. A warm (35-40 °C) day with high humidity is considered the most likely scenario for carburetor icing. Since there is less air acceleration through the carburetor at full-throttle operation, icing is usually not a problem then.

Carburetor heat uses hot air drawn from the heat exchanger or "heat stove" (a metal plate around the exhaust manifold) to raise the temperature in the venturi section high enough to prevent or remove any ice buildup. Because hot air is less dense than cold air, engine power will drop when carburetor heat is used.

Engines equipped with fuel injection do not require carb heat as they are not as prone to icing - the gasoline is injected as a steady stream just upstream of the intake valve, so evaporation occurs as the fuel/air mixture is being drawn into the cylinder, where metal temperatures are higher. The exception is monopoint or TBI injection systems which spray fuel onto the throttle plate.

Some multipoint injection engines route engine coolant through the throttle body to prevent ice buildup during prolonged idling. This prevents ice from forming around the throttle plate but does not draw large amounts of hot air into the engine as carburetor heat does.

In aircraft

In light aircraft, the carburetor heat is usually manually controlled by the pilot. The diversion of warm air into the intake reduces the available power from the engine for three reasons: thermodynamic efficiency is slightly reduced, since it is a function of the difference in temperature between the incoming and exhaust gases; the quantity of air available for combustion inside the cylinders is reduced due to the lower density of the warm air; and the previously-correct ratio of fuel to air is upset by the lower-density air, so some of the fuel will not be burned and will exit as unburned hydrocarbons. Thus the application of carb heat is manifested as a reduction in engine power. If ice has built up, there will then be a gradual increase in power as the air passage is freed up by the melting ice. The amount of power regained is an indication of the severity of ice buildup.

It must be kept in mind that the ingestion of small amounts of water into the engine following melting in the carburetor may cause an initial period of rough running for as much as one or two minutes before the power increase is noted. Again, the pilot will note this as evidence that icing conditions are present. However, more than one pilot, when confronted with a rough running engine has mistakenly turned the carburetor heat back off, thereby exacerbating the situation.

Applying carb heat as a matter of routine is built into numerous in-flight and pre-landing checks (e.g. see BUMPH and GUMPS). In long descents, carb heat may be used continuously to prevent icing buildup; with the throttle closed there is a large pressure (and therefore temperature) drop in the carburetor which can cause rapid ice buildup that could go unnoticed because engine power is not used. In addition, the exhaust manifold cools considerably when power is removed, so if carb icing occurs there may not be heat sufficient to remove it. Thus most operational checklists call for the routine application of carb heat whenever the throttle is closed in flight.

Usually, the air filter is bypassed when carb heat is used. If the air filter becomes clogged (with snow or ice), using carb heat allows the engine to keep running. Because using unfiltered air can cause engine wear, carb heat usage on the ground (where dusty air is most probable) is kept to a minimum.

Altitude has an indirect effect on carburetor ice because there are usually significant temperature differences with altitude. Clouds contain moisture, and therefore flying through clouds may necessitate more frequent use of carb heat.

The intake air of an aircraft engine equipped with a supercharger is heated through compression, so the air entering the throttle body is already warmed enough that carb heat is unnecessary.

In automobiles

In cars, carburetor heat may be controlled automatically (by a wax-pellet driven flap in the air intake) or manually (often by rotating the air cleaner cover between 'summer' and 'winter' settings). The air filter bypass found on aircraft engines is not used, because the air filter on automobiles is not exposed to the elements, and because the carburetor is usually mounted closer to the cylinder block, so that enough engine heat is transmitted through the structure to keep the venturi walls warm. However, this is not always sufficient, and some automobiles have a history of engine failure (power output drops to zero until the engine sits long enough for the engine heat to melt the accumulated ice) during rain or snow conditions (the 1989 Chevrolet Nova was particularly susceptible to this problem).

Autombile engines may also use a heated air inlet, which heats the air/fuel mixture after it has left the carburetor; this is an emissions control and driveability feature.

ee also

*Fog
*Dew point
*Carburetor
*Carburetor icing
*Heated air inlet
*Fuel injection

External links

* Picture of automobile engine exhaust manifold heat stove. http://www.widnerindustries.com/product4.htm


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